Lamborghini Murciélago
The name
2
The concept
3
The design
4
The engine
6
The electronics
8
The transmission
9
Chassis and suspension
10
Brakes and Safety
12
Equipment and Comfort
14
The performance
16
Enclosure: Technical Data Sheet
The name
In the late afternoon of the 5th October 1879, after a fiercely fought
contest in the arena of Cordoba, a bull named Murciélago from the
stud farm of Joaquin del Val di Navarra had his life spared by the
famous matador Rafael Molina “Lagartijo”.
This was a very rare occurrence in bullfighting, and an honour
accorded only to those bulls that have shown exceptional courage and
spirit in the arena. And Murciélago was indeed such a bull.
He was subsequently donated to the breeder Antonio Miura, and went
on to father a formidable line of fighting bulls that extends right down
to the present day.
The bull has always been a symbol of power, aggression and courage:
characteristics that are shared by all cars of the Lamborghini marque.
In depictions of bullfights, bull and matador together form an
emblematic unit, an antithetic combination of brute force and elegance.
And it is this symbiosis of violence and beauty that makes the
spectacle of bullfighting so fascinating.
In the context of the arena, the indomitable spirit of the bull becomes a
lethal combination of agility and muscular strength, which must be
overcome by the grace and skill of the matador.
True to the tradition in which the bull has always been the symbol of
the prestigious motorcar company founded by Ferruccio Lamborghini
born under the sign of Taurus, no less the management at
Automobili Lamborghini have decided to baptise the latest car in the
noble line with the name of a fighting bull. And so, after a succession
of names linked to the world of the corrida, such as Miura, Jslero,
Urraco, Bravo, Jalpa and Espada (the latter being Spanish for sword,
the weapon of the matador, and thus a symbol for the matador himself)
we now have Murciélago which coincidentally also means "bat" in
Spanish. An unusual name, perhaps, but nonetheless one that
effectively expresses the dynamism, elegance and power of the latest
thoroughbred to emerge from the Lamborghini stable.
-2-
The concept
The Lamborghini Murciélago is 2-seater, 2-door coupé (with the now
familiar gull-wing doors) based on the traditional Lamborghini layout:
mid-mounted V12 engine, typical Lamborghini transmission with the
gearbox mounted in front of the engine and the rear differential
integrated into the engine unit, permanent four-wheel drive with
central viscous coupler.
This layout, successfully employed by Lamborghini for more than 30
years, affords an optimal weight distribution (58% rear and 42% front)
with conspicuous advantages for traction, braking and handling.
The suspension design (independent double wishbones) represents the
best possible solution for a high-performance GT and, again, is in
keeping with Lamborghini tradition.
The external bodywork panels are made from carbon fibre, with the
exception of the steel roof and door panels.
The rear of the car features two "active" intakes for the engine cooling
air. With the exclusive VACS (“Variable Air-flow Cooling System”),
the aperture of these air intakes can be varied to suit the driving
conditions. Furthermore, to ensure correct aerodynamic equilibrium at
all speeds, the angle of the rear spoiler can also be altered. According
to the speed of the car, the rear spoiler can assume three different
positions: closed from 0 to130 km/h, partially open (50°) between 130
and 220 km/h and fully open (70°) above 220 km/h. Depending on the
aperture of the air intakes and the position of the rear spoiler, the car's
Cx coefficient varies from a minimum of 0.33 to a maximum of 0.36.
Bi-xenon headlights produce both main and dipped beams.
For the windscreen wiper, it was decided to adopt the proven singlearm pantograph design. This system increases the area swept by the
wiper blade, thereby reducing blind spots in the visual field of the
driver, and operates correctly at high speed without obstructing the
driver's view when at rest.
The wing mirrors can be folded electrically and are mounted on long
support arms so that the driver can see beyond the rear wings, which
are especially prominent when the air intakes are open. However,
mirror stability is not compromised, even at high speeds.
-3-
The design
The “mission” was to design a worthy successor to the Lamborghini
Diablo: the new car had to be exciting, unmistakable, but also safe and
ergonomic.
Lamborghini's brief to the designer was simple: “We'll make the
engine, you design the body to fit”. The result is a creation in steel and
carbon fibre precisely tailored to suit the engine, that enhances the
performance of its twelve cylinders.
The central concepts of the design are purity of line, muscularity,
aeronautical influence, efficiency and "made to measure”.
Certainly the lines of the Murciélago do justice to its illustrious
heritage and echo the styling features of some of the most significant
icons to be produced by the marque. In its lines can be seen the wedge
shape of the Countach, the sensual tension of the Miura and the
dramatic proportions of the Diablo, with its futuristic cabin.
One of the key styling features of the Murciélago is the way the cabin
is seamlessly integrated in the lines of the body: this distinctive
approach, previously encountered on both the Countach and Diablo,
has a single arc extending from the front to the rear that emphasises the
overall wedge shape of the car.
The Murciélago is a superlative car, with a mechanical structure that
neither allows nor requires any gimmickry; the styling must reflect this
and is therefore free of superfluous ornament or embellishment. Pure,
simple lines are all that is required.
The Murciélago has a strong athletic stance, achieved by reducing the
front and rear overhangs and by visual emphasis of the muscular
contours above and around the wheels. The complex interplay of the
body curves as they flow seamlessly into one another creates a subtle
tension.
-4-
The silhouette, characterised by strong, purposeful stance and sharp
angles, draws inspiration from the famous stealth fighters. The designs
of the dynamic cooling and handling surfaces originate from the field
of aeronautical engineering: a field in which, more than in any other,
function dictates form.
But above all, the design has to be efficient. Every technical function is
performed by an active system: in this way the aerodynamic efficiency
of the car is not compromised by any superfluous thermodynamic or
aerodynamic appendages.
-5-
The engine
The Murciélago's engine which complies with the strictest emission
standards in the world, including those of the United States, Japan and
Europe is a 12-cylinder 60° V with a displacement of 6192 cc,
made entirely from aluminium alloy and designed for unleaded fuel,
producing 580 CV (426 kW) at 7500 rpm and 650 Nm torque at 5400
rpm.
Torque delivery is optimised across the entire engine operating band
(even at engine speeds relatively low for a sports car) thanks to the
adoption of a variable-geometry intake system (VIS), variable valve
timing (VVT) on both inlet and exhaust camshafts, and the “drive-bywire” electronic throttle control, which makes for reduced emissions,
improved idle speed control and improved driveability. Particularly
noteworthy is the fact that at just 2000 rpm, the Murciélago produces
more torque than maximum value attained by the majority of
Granturismo cars in today's market.
Unlike its predecessor, the Murciélago has a dry sump lubrication
system that allows the engine to be positioned 50 mm lower, with a
consequent lowering of the centre of gravity.
The variable intake system, which essentially alters the geometry of
the intake system upstream of the primary intake passages, provides
three different operating modes obtained by the opening and closing of
two butterfly valves (one on the plenum chamber and one on the bypass pipe), the operation of which is entrusted to the Lamborghini LIE
engine control units.
The VACS (“Variable Air-flow Cooling System”) is an entirely new
concept in air intake technology. A high-performance car obviously
requires a high-power engine. And, in turn, a high-power engine needs
an efficient cooling system with appropriately proportioned air intakes.
In a conventional fixed system, these air intakes have to be
dimensioned to suit the most extreme operating conditions, such as, for
example, very high external air temperatures, even though these
conditions are rarely encountered during normal running (accounting
on average for only 15% of the vehicle’s total usage). This means that
air intakes have to be made too large for average use, thus
compromising the car's aerodynamic characteristics and performance.
-6-
To avoid this compromise, Automobili Lamborghini S.p.A. has
designed a variable air-flow cooling system in which the aperture of
the air intakes can be altered to suit the cooling requirements of the
engine and the external air temperature. As a consequence, the car's
aerodynamic characteristics are only compromised when necessary,
which, as stated previously, amounts to only about 15% of the total
vehicle usage.
The essential characteristics of the system are as follows:
the system comprises two rear lateral air intakes that pivot to assume
two positions: closed (O°) or open (20°). The change from one position
to the other can be controlled either automatically on the basis of the
operating conditions (engine coolant temperature and external air
temperature) or manually, by the driver pressing a button (only with
the engine running).
The opening and closing of the air intakes is controlled by a dedicated
PMC electronic control unit, the same unit that controls the movement
of the rear spoiler.
Should the movement of the air intakes be obstructed, a safety system
alerts the driver by way of a warning light.
-7-
The electronics
The management and control of all the engine and vehicle operating
parameters is entrusted to a system comprised of 3 “master” control
units and 1 satellite control unit, made up as follows: 2 Lamborghini
LIE engine management units, 1 Lamborghini GFA auxiliary function
management unit and 1 Lamborghini PMC (“Power Motor Control)
satellite control unit.
All these electronic control units are interconnected by way of a CAN
BUS.
More precisely, each of the 2 LIE units (with 32 bit/20Mhz
microprocessors) controls one of the two banks of cylinders, each LIE
being equipped with an identification pin for the purposes of unit
recognition and function differentiation, whereas “body” control
functions are managed by the GFA and PMC units, each with a 32
bit/20MhZ microprocessor and 80-pin connector.
The main functions of the electronic control system are:
-
Fuel injection management (multipoint injection, timed sequential)
Ignition management (breakerless ignition with one coil per
cylinder)
Variable valve timing management- inlet and exhaust valves(VVT)
Management of the variable-geometry intake system (VIS)
Detonation management (by knocking sensors)
External noise level management (Lamborghini ECS)
Management of the Drive-by-Wire system (electronic throttle)
Management of the “Traction Control System” (TCS)
Instrument panel management
Management of the variable-geometry air intake system
(Lamborghini VACS)
Rear spoiler management
The electronic control system also provides the following diagnostic
functions:
-
OBD II on-board diagnostic system
Lamborghini LDAS diagnostic system and "black box" recorder
Control algorithms developed to ensure compliance with USA,
Europe and Japan standards.
-8-
The transmission
As mentioned previously, the Lamborghini Murciélago has a new 6speed gearbox, while the transmission maintains the traditional
Lamborghini layout.
To increase the general rigidity of the system and improve basic
stability in operation, the primary shaft and the secondary shaft are
each mounted on three bearings (as against 2 on the Diablo).
Gearbox lubrication is forced, with a pump mounted inside the gearbox
itself. Use of the latest generation double and triple-cone synchronizers
and optimisation of the control linkage have allowed for an appreciable
reduction in the effort required to change gear.
The rear differential is flange mounted to the engine so that it can be
replaced without having to remove the complete powertrain from the
car.
The clutch control system has been optimised by the fitting of a slave
cylinder on the axis of the clutch release bearing, the result being a
significant reduction in the force required to operate the clutch pedal.
The Murciélago, like its predecessor the Diablo, is equipped with
permanent four-wheel drive and a central viscous coupling (Viscous
Traction System), with 45% limited slip and the front with 25%
limited slip.This solution represents an active traction control system:
excess torque on the primary axle (rear) is automatically transferred to
the secondary axle (front) to maintain ideal traction at all times.
Furthermore, in order to meet the demands of extreme driving,
Lamborghini has also developed a traction control system that acts on
the engine itself.
When the limits of grip are reached, driving torque is suitably reduced
by intervening on both the throttle (by way of the DBW system) and
the injection/ignition systems.
-9-
Chassis and Suspension
The Murciélago chassis has been stiffened considerably to achieve a
torsional rigidity value in excess of 20,000 Nm/°.
The attainment of this value was one of the fundamental objectives of
the design programme, and translates into a significant improvement in
the car's performance: improved suspension behaviour and handling,
greater driving comfort and an appreciable reduction in interior noise.
The chassis consists of a frame made of high-strength steel tube, with
structural elements in carbon fibre/honeycomb.
The carbon fibre elements are attached to the steel frame using a
combination of adhesives and steel rivets.
The chassis, which has a structural steel roof and a carbon fibre floor
pan attached to the tubular frame, incorporates pressed steel panels
with stiffening ribs, which also have a structural function.
The new chassis offers several advantages over the previous design:
- at the front end of the chassis, the mountings for the shock
absorbers, the torsion bar and the front suspension have all been
moved forward by 15 mm (wheelbase=2665mm); some of the tubes
and panels in the area of the rear wheel arches have been replaced by
carbon fibre panels, these being attached to the perimeter of the tubular
frame; the geometry of the lower part has been modified to suit the
more forward positioning of the front axle and thereby improve
accessibility and increase the space available for the pedals.
-
a new, more rigid removable cross member has been fitted for the
rear shock absorber mountings.
The independent front and rear double wishbone suspensions, with
steel arms and hydraulic shock absorbers with electronic damping
control allowing automatic or manual adjustment, have been optimised
to improve handling and straight-line stability.
The main improvements concern the springs and the shock
absorbers, the anti-roll bars front and rear and the overall
suspension setup.
-10-
Also worthy of mention are the front “Antidive” and the rear
“Antisquat” systems.
The springs – two per rear wheel and one per front wheel – are
mounted coaxially with the shock absorbers.
The spring/damper assemblies are attached to the chassis with Flanbloc
bushes.
The dimensions of the aluminium alloy wheel rims with concealed
valves are 8 ½ x 18” (front) and 13 x 18”(rear); the sizes of the
PIRELLI P Zero “ROSSO” tyres are respectively 245/35 ZR 18 and
335/30 ZR 18.
The wheel rims feature a new concealed valve design that improves the
circulation of cooling air around the brake disks and calipers.
The new tyres give a more comfortable ride, reduced road noise and
improved handling.
-11-
Brakes and Safety
Safety is one of the strong points of the Lamborghini Murciélago.
The braking system consists of four disk brakes, each with 4 wheel
cylinders per caliper, and two independent hydraulic circuits one for
the front axle and one for the rear. The system includes a tandem
master cylinder, a vacuum servo brake, an emergency brake and a
parking brake. There is also a 4-channel ABS system with DRP
(Dynamic Rear Proportioning) and TCS.
The TRW type antilock braking system, which forms an integral part
of the basic braking system, consists of an electro-hydraulic control
unit and 4 wheel speed sensors.
The electro-hydraulic control unit, with dedicated microprocessor,
receives the signals from the 4 electromagnetic speed sensors mounted
on the hub flanges, and calculates the speed and acceleration of each
individual wheel. Using this information, the microprocessor is able to
detect a tendency to slip on any wheel and modulate the fluid pressure
in the corresponding brake line accordingly, in order to restore the
correct speed and thereby maximum braking force on that particular
wheel.
The 4-channel system is able to monitor and control each wheel
independently.
To maintain the safety guaranteed by the two fully independent
braking circuits (one for the front and one for the rear brakes) the
hydraulic components of the control unit are doubled up, so that no
part of the braking system is common to both the front and rear brakes.
In the event of a malfunction of the ABS (signalled by a red warning
light on the dash) the basic braking system will still continue to
function normally.
The DRP function has reparameterised with respect to the previous
model to guarantee an optimum distribution of the braking force
between the front and rear wheels in all conditions even those not
calling for intervention of the ABS.
-12-
Passive safety standards have also been significantly improved on the
Murciélago: the car is equipped with two airbags, a 60-litre bag with
single inflator on the driver's side and a 130-litre bag with dual inflator
on the passenger side, which emerges from a new seamlessly
upholstered panel. Both airbags are controlled by a new dedicated
control unit.
The Murciélago complies with all EU, Japan and US safety standards
of which we can remember the most rigorous: FMVSS 201 - Occupant
Protection in Interior Impact, FMVSS 208 - Occupant Crash
Protection, FMVSS 214 - Side Impact Protection, FMVSS 301 - Fuel
System Integrity, FMVSS 302 - Flammability of Interior Materials,
FMVSS 401- Interior Trunk Releases for child safety, and part 581 Bumper Standard, of European Directives 1999/98/CE for frontal
impact and 96/27/CE for side impact and pole impact.
-13-
Equipment & Comfort
At the wheel of the Lamborghini Murciélago, the driver is in complete
control. The clear, accurate instruments and their respective controls
are all grouped together on a single electronically-controlled panel,
which has undergone numerous aesthetic and ergonomic
improvements. This panel is directly interfaced through a CAN bus to
a Lamborghini GFA control unit (body computer).
The instrument panel includes a trip computer that displays average
and maximum speed, maximum acceleration, miles to empty (range), a
chronometer and a voltmeter.
Among the other driver’s aids are an electric control to fold the
electrically-heated wing mirrors, the non-reflective rearview mirror,
and the axle lifting system that, at low speeds, allows the car's front
axle to be raised by 45 mm.
The interior features leather upholstery, 3-spoke sports steering wheel
(also in leather) and a steel gear lever and selector gate: another
refinement that is a long-established Lamborghini tradition. Numerous
storage compartments are provided, and the radio and CD autochanger
are tailor-made to Lamborghini's specifications.
Options include low ratio gears and satellite navigation system.
The high-performance characteristics of the Murciélago certainly do
not detract from the comfort level, which is significantly improved
compared with the Diablo.
The first of these improvements concerns accessibility: the door
opening angle has been widened by 5° and the chassis side member
directly under the door has been lowered by 25 mm. Interior comfort
has also been improved, with more room now available for both the
driver and the passenger, achieved by redesigning the side members of
the roof and increasing the size of the footwell.
Interior noise levels are much reduced, thanks to the use of optimised
soundproofing materials, the elimination of undesirable noise channels,
the adoption of integral panels and by fitting acoustic insulation panels
to the wheel arches to reduce road noise.
-14-
The stiffer chassis also makes an important if indirect contribution to
driver comfort.
Further improvements in comfort have been obtained by the use of
improved thermal insulation on the transmission tunnel and the engine
bulkhead.
Internal climate control has been greatly improved by the new layout
of air outlet vents, an improved system efficiency and a new control
algorithm.
The Murciélago's climate control system provides the cabin
temperature setting ranging between 16 and 31 degrees centigrade,
automatic control of the air distribution in the cabin according to the
season and the temperature of the outlet air, automatic blower speed
control with eight different settings, automatic recirculation and
compressor control.
The operating limits of the Lamborghini Murciélago's climate control
system, which also includes an automatic defroster and full diagnostic
functions, are between –29 and +55 degrees centigrade external
temperature.
-15-
The performance
Thanks to the 580 Hp (426 kW) (USA version: 575 Hp – 423 kW)
maximum power and 650 Nm maximum torque output of its 60° V-12
engine, delivered at 7500 rpm, the Lamborghini Murciélago can
exceed 330 km/h (205 mph) and accelerate from 0 to 100 km/h (0 to
62 mph) in 3.8 seconds.
Compared with previous models, the driveability of the Murciélago is
significantly improved, thanks to the smoother torque curve, increased
power, the new 6-speed gearbox and the improved electronic engine
management system.
Handling and high-speed stability are also better, thanks mainly to the
improved torsional rigidity of the chassis, the lowering of the car's
centre of gravity, the optimisation of the suspension and tyres and
last but not least the improved aerodynamics.
The advances made in terms of driveability and performance, apparent
even under the most demanding driving conditions, are matched by an
equally significant improvement in driving comfort.
-16-
TECHNICAL DATA SHEET LAMBORGHINI MURCIÉLAGO
CHASSIS
Frame
Body
Suspension
Brakes
Ventilated discs (front —rear)
Steering
Tyres (front —rear)
Wheels (front —rear)
Kerb-to-kerb turning circle
Mirrors
Rear spoiler
Tubular frame made from high-strength steel alloy
with carbon fibre structural parts
Carbon fibre and steel
Independent front and rear double wishbones,
anti-roll bars;anti-dive and anti-squat; electronic shock
absorber system with manual and automatic control
Power vacuum,H system with ABS +DRP,
aluminium alloy four cylinder calipers
Ø 355 x 32 mm —Ø 335 x 32 mm
Power-assisted rack and pinion
245/35 ZR 18 —335/30 ZR 18
Aluminium alloy,8.5"x Ø 18"—13"x Ø 18"
12.55 m
External mirror with electrical closing system and
heating
system,internal mirror with anti-blinding system
Electronically controlled
ENGINE
Type
Displacement
Bore and stroke
Intake system
Valve gear
Compression ratio
Maximum power
Maximum torque
Emission control system
Cooling system
Engine management system
12 cylinders V60 °
6192 cc
Ø 87 mmx 86.8 mm
Variable geometry,3 modes
DOHC,48 valves, intake and exhaust variable
valve timing, electronically controlled
10.7:1
426 kW (580 PS) (USA version: 575 Hp-423kW)
at 7500 rpm
650 Nm at 5400 rpm
Catalytic converters with lambda sensors
Two water radiators +oil cooler, variable geometry
air inlet system (Lamborghini VACS)
Lamborghini L.I.E., with individual static ignition,
multipoint sequential fuel injection, drive-by-wire
system, traction control system, OBD system
DRIVETRAIN
Type of transmisson
Gearbox
Clutch
Gear ratios
Permanent 4-wheel drive with viscous traction system
Manual 6 speed + reverse
Dry single plate Ø 272 mm with reduced pedal load
I =1 :2.941; II =1 :2.056; III =1 :1.520; IV =1 :1.179;
V =1 :1.030; VI =1 :0.914; reverse =1 :2.529
PERFORMANCE
Top speed
Over 330 km/h (205 mph) depending on aerodynamic
configuration
DIMENSIONS
Wheelbase
Overall length
Overall width
Overall height
Track (front —rear)
Weight
Weight distribution (front —rear)
CAPACITIES
Engine oil
Fuel tank
Engine coolant
2665 mm
4580 mm
2045 mm
1135 mm
1635 mm —1695 mm
1650 kg
Front 42%—rear 58%
12 litres
100 litres
15 litres
Enclosure
Motore 12 cilindri di 6.2 litri,
4 valvole per cilindro
6.2 litre 12 Cylinder engine with
4 valves per cylinder
6192 cm3
426 kW (580 CV) a 7.500 giri/min
650 Nm a 5.400 giri/min
6192 cc
426 kW (580 hp) at 7,500 rpm
650Nm at 5,400 rpm
Potenza in kW
Power, kW
Coppia in Nm
Torque, Nm
450
800
400
700
350
600
300
500
250
400
200
300
150
200
Potenza / Power
100
50
1000
Coppia / Torque
100
0
2000
3000
4000
5000
6000
7000
8000
Regime motore in giri/min
Engine speed in rpm